[project/libubox.git] / ustream.c

/*
 * ustream - library for stream buffer management
 *
 * Copyright (C) 2012 Felix Fietkau <nbd@openwrt.org>
 *
 * Permission to use, copy, modify, and/or distribute this software for any
 * purpose with or without fee is hereby granted, provided that the above
 * copyright notice and this permission notice appear in all copies.
 *
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 */

#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <stdio.h>
#include <stdarg.h>

#include "ustream.h"

static void ustream_init_buf(struct ustream_buf *buf, int len)
{
        if (!len)
                abort();

        memset(buf, 0, sizeof(*buf));
        buf->data = buf->tail = buf->head;
        buf->end = buf->head + len;
        *buf->head = 0;
}

static void ustream_add_buf(struct ustream_buf_list *l, struct ustream_buf *buf)
{
        l->buffers++;
        if (!l->tail)
                l->head = buf;
        else
                l->tail->next = buf;

        buf->next = NULL;
        l->tail = buf;
        if (!l->data_tail)
                l->data_tail = l->head;
}

static bool ustream_can_alloc(struct ustream_buf_list *l)
{
        if (l->max_buffers <= 0)
                return true;

        return (l->buffers < l->max_buffers);
}

static int ustream_alloc_default(struct ustream *s, struct ustream_buf_list *l)
{
        struct ustream_buf *buf;

        if (!ustream_can_alloc(l))
                return -1;

        buf = malloc(sizeof(*buf) + l->buffer_len + s->string_data);
        ustream_init_buf(buf, l->buffer_len);
        ustream_add_buf(l, buf);

        return 0;
}

static void ustream_free_buffers(struct ustream_buf_list *l)
{
        struct ustream_buf *buf = l->head;

        while (buf) {
                struct ustream_buf *next = buf->next;

                free(buf);
                buf = next;
        }
        l->head = NULL;
        l->tail = NULL;
        l->data_tail = NULL;
}

void ustream_free(struct ustream *s)
{
        if (s->free)
                s->free(s);

        uloop_timeout_cancel(&s->state_change);
        ustream_free_buffers(&s->r);
        ustream_free_buffers(&s->w);
}

static void ustream_state_change_cb(struct uloop_timeout *t)
{
        struct ustream *s = container_of(t, struct ustream, state_change);

        if (s->write_error)
                ustream_free_buffers(&s->w);
        if (s->notify_state)
                s->notify_state(s);
}

void ustream_init_defaults(struct ustream *s)
{
#define DEFAULT_SET(_f, _default)       \
        do {                            \
                if (!_f)                \
                        _f = _default;  \
        } while(0)

        DEFAULT_SET(s->r.alloc, ustream_alloc_default);
        DEFAULT_SET(s->w.alloc, ustream_alloc_default);

        DEFAULT_SET(s->r.min_buffers, 1);
        DEFAULT_SET(s->r.max_buffers, 1);
        DEFAULT_SET(s->r.buffer_len, 4096);

        DEFAULT_SET(s->w.min_buffers, 2);
        DEFAULT_SET(s->w.max_buffers, -1);
        DEFAULT_SET(s->w.buffer_len, 256);

#undef DEFAULT_SET

        s->state_change.cb = ustream_state_change_cb;
        s->write_error = false;
        s->eof = false;
        s->eof_write_done = false;
        s->read_blocked = 0;

        s->r.buffers = 0;
        s->r.data_bytes = 0;

        s->w.buffers = 0;
        s->w.data_bytes = 0;
}

static bool ustream_should_move(struct ustream_buf_list *l, struct ustream_buf *buf, int len)
{
        int maxlen;
        int offset;

        /* nothing to squeeze */
        if (buf->data == buf->head)
                return false;

        maxlen = buf->end - buf->head;
        offset = buf->data - buf->head;

        /* less than half is available */
        if (offset > maxlen / 2)
                return true;

        /* less than 32 bytes data but takes more than 1/4 space */
        if (buf->tail - buf->data < 32 && offset > maxlen / 4)
                return true;

        /* more buf is already in list or can be allocated */
        if (buf != l->tail || ustream_can_alloc(l))
                return false;

        /* no need to move if len is available at the tail */
        return (buf->end - buf->tail < len);
}

static void ustream_free_buf(struct ustream_buf_list *l, struct ustream_buf *buf)
{
        if (buf == l->head)
                l->head = buf->next;

        if (buf == l->data_tail)
                l->data_tail = buf->next;

        if (buf == l->tail)
                l->tail = NULL;

        if (--l->buffers >= l->min_buffers) {
                free(buf);
                return;
        }

        /* recycle */
        ustream_init_buf(buf, buf->end - buf->head);
        ustream_add_buf(l, buf);
}

static void __ustream_set_read_blocked(struct ustream *s, unsigned char val)
{
        bool changed = !!s->read_blocked != !!val;

        s->read_blocked = val;
        if (changed)
                s->set_read_blocked(s);
}

void ustream_set_read_blocked(struct ustream *s, bool set)
{
        unsigned char val = s->read_blocked & ~READ_BLOCKED_USER;

        if (set)
                val |= READ_BLOCKED_USER;

        __ustream_set_read_blocked(s, val);
}

void ustream_consume(struct ustream *s, int len)
{
        struct ustream_buf *buf = s->r.head;

        if (!len)
                return;

        s->r.data_bytes -= len;
        if (s->r.data_bytes < 0)
                abort();

        do {
                struct ustream_buf *next = buf->next;
                int buf_len = buf->tail - buf->data;

                if (len < buf_len) {
                        buf->data += len;
                        break;
                }

                len -= buf_len;
                ustream_free_buf(&s->r, buf);
                buf = next;
        } while(len);

        __ustream_set_read_blocked(s, s->read_blocked & ~READ_BLOCKED_FULL);
}

static void ustream_fixup_string(struct ustream *s, struct ustream_buf *buf)
{
        if (!s->string_data)
                return;

        *buf->tail = 0;
}

static bool ustream_prepare_buf(struct ustream *s, struct ustream_buf_list *l, int len)
{
        struct ustream_buf *buf;

        buf = l->data_tail;
        if (buf) {
                if (ustream_should_move(l, buf, len)) {
                        int len = buf->tail - buf->data;

                        memmove(buf->head, buf->data, len);
                        buf->data = buf->head;
                        buf->tail = buf->data + len;

                        if (l == &s->r)
                                ustream_fixup_string(s, buf);
                }
                /* some chunks available at the tail */
                if (buf->tail != buf->end)
                        return true;
                /* next buf available */
                if (buf->next) {
                        l->data_tail = buf->next;
                        return true;
                }
        }

        if (!ustream_can_alloc(l))
                return false;

        if (l->alloc(s, l) < 0)
                return false;

        l->data_tail = l->tail;
        return true;
}

char *ustream_reserve(struct ustream *s, int len, int *maxlen)
{
        struct ustream_buf *buf;

        if (!ustream_prepare_buf(s, &s->r, len)) {
                __ustream_set_read_blocked(s, s->read_blocked | READ_BLOCKED_FULL);
                *maxlen = 0;
                return NULL;
        }

        buf = s->r.data_tail;
        *maxlen = buf->end - buf->tail;
        return buf->tail;
}

void ustream_fill_read(struct ustream *s, int len)
{
        struct ustream_buf *buf = s->r.data_tail;
        int n = len;
        int maxlen;

        s->r.data_bytes += len;
        do {
                if (!buf)
                        abort();

                maxlen = buf->end - buf->tail;
                if (len < maxlen)
                        maxlen = len;

                len -= maxlen;
                buf->tail += maxlen;
                ustream_fixup_string(s, buf);

                s->r.data_tail = buf;
                buf = buf->next;
        } while (len);

        if (s->notify_read)
                s->notify_read(s, n);
}

char *ustream_get_read_buf(struct ustream *s, int *buflen)
{
        char *data = NULL;
        int len = 0;

        if (s->r.head) {
                len = s->r.head->tail - s->r.head->data;
                if (len > 0)
                        data = s->r.head->data;
        }

        if (buflen)
                *buflen = len;

        return data;
}

int ustream_read(struct ustream *s, char *buf, int buflen)
{
        char *chunk;
        int chunk_len;
        int len = 0;

        do {
                chunk = ustream_get_read_buf(s, &chunk_len);
                if (!chunk)
                        break;
                if (chunk_len > buflen - len)
                        chunk_len = buflen - len;
                memcpy(buf + len, chunk, chunk_len);
                ustream_consume(s, chunk_len);
                len += chunk_len;
        } while (len < buflen);

        return len;
}

static void ustream_write_error(struct ustream *s)
{
        if (!s->write_error)
                ustream_state_change(s);
        s->write_error = true;
}

bool ustream_write_pending(struct ustream *s)
{
        struct ustream_buf *buf = s->w.head;
        int wr = 0, len;

        if (s->write_error)
                return false;

        while (buf && s->w.data_bytes) {
                struct ustream_buf *next = buf->next;
                int maxlen = buf->tail - buf->data;

                len = s->write(s, buf->data, maxlen, !!buf->next);
                if (len < 0) {
                        ustream_write_error(s);
                        break;
                }

                if (len == 0)
                        break;

                wr += len;
                s->w.data_bytes -= len;
                if (len < maxlen) {
                        buf->data += len;
                        break;
                }

                ustream_free_buf(&s->w, buf);
                buf = next;
        }

        if (s->notify_write)
                s->notify_write(s, wr);

        if (s->eof && wr && !s->w.data_bytes)
                ustream_state_change(s);

        return !s->w.data_bytes;
}

static int ustream_write_buffered(struct ustream *s, const char *data, int len, int wr)
{
        struct ustream_buf_list *l = &s->w;
        struct ustream_buf *buf;
        int maxlen;

        while (len) {
                if (!ustream_prepare_buf(s, &s->w, len))
                        break;

                buf = l->data_tail;

                maxlen = buf->end - buf->tail;
                if (maxlen > len)
                        maxlen = len;

                memcpy(buf->tail, data, maxlen);
                buf->tail += maxlen;
                data += maxlen;
                len -= maxlen;
                wr += maxlen;
                l->data_bytes += maxlen;
        }

        return wr;
}

int ustream_write(struct ustream *s, const char *data, int len, bool more)
{
        struct ustream_buf_list *l = &s->w;
        int wr = 0;

        if (s->write_error)
                return 0;

        if (!l->data_bytes) {
                wr = s->write(s, data, len, more);
                if (wr == len)
                        return wr;

                if (wr < 0) {
                        ustream_write_error(s);
                        return wr;
                }

                data += wr;
                len -= wr;
        }

        return ustream_write_buffered(s, data, len, wr);
}

#define MAX_STACK_BUFLEN        256

int ustream_vprintf(struct ustream *s, const char *format, va_list arg)
{
        struct ustream_buf_list *l = &s->w;
        char *buf;
        va_list arg2;
        int wr, maxlen, buflen;

        if (s->write_error)
                return 0;

        if (!l->data_bytes) {
                buf = alloca(MAX_STACK_BUFLEN);
                va_copy(arg2, arg);
                maxlen = vsnprintf(buf, MAX_STACK_BUFLEN, format, arg2);
                va_end(arg2);
                if (maxlen < MAX_STACK_BUFLEN) {
                        wr = s->write(s, buf, maxlen, false);
                        if (wr < 0) {
                                ustream_write_error(s);
                                return wr;
                        }
                        if (wr == maxlen)
                                return wr;

                        buf += wr;
                        maxlen -= wr;
                        return ustream_write_buffered(s, buf, maxlen, wr);
                } else {
                        buf = malloc(maxlen + 1);
                        wr = vsnprintf(buf, maxlen + 1, format, arg);
                        wr = ustream_write(s, buf, wr, false);
                        free(buf);
                        return wr;
                }
        }

        if (!ustream_prepare_buf(s, l, 1))
                return 0;

        buf = l->data_tail->tail;
        buflen = l->data_tail->end - buf;

        va_copy(arg2, arg);
        maxlen = vsnprintf(buf, buflen, format, arg2);
        va_end(arg2);

        wr = maxlen;
        if (wr >= buflen)
                wr = buflen - 1;

        l->data_tail->tail += wr;
        l->data_bytes += wr;
        if (maxlen < buflen)
                return wr;

        buf = malloc(maxlen + 1);
        maxlen = vsnprintf(buf, maxlen + 1, format, arg);
        wr = ustream_write_buffered(s, buf + wr, maxlen - wr, wr);
        free(buf);

        return wr;
}

int ustream_printf(struct ustream *s, const char *format, ...)
{
        va_list arg;
        int ret;

        if (s->write_error)
                return 0;

        va_start(arg, format);
        ret = ustream_vprintf(s, format, arg);
        va_end(arg);

        return ret;
}